David Landry scite author profile

Despite many potential applications, miniature mass spectrometers have had limited adoption in the field due to the tradeoff between throughput and resolution that limits their performance relative to laboratory instruments. Recently, a solution to this tradeoff has been demonstrated by using spatially coded apertures in magnetic sector mass spectrometers, enabling throughput and signal-to-background improvements of greater than an order of magnitude with no loss of resolution. This paper describes a proof of concept demonstration of a cycloidal coded aperture miniature mass spectrometer (C-CAMMS) demonstrating use of spatially coded apertures in a cycloidal sector mass analyzer for the first time. C-CAMMS also incorporates a miniature carbon nanotube (CNT) field emission electron ionization source and a capacitive transimpedance amplifier (CTIA) ion array detector. Results confirm the cycloidal mass analyzer's compatibility with aperture coding. A >10× increase in throughput was achieved without loss of resolution compared with a single slit instrument. Several areas where additional improvement can be realized are identified. Graphical Abstract ᅟ.

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The risks and rewards of resource-for-infrastructure deals: Lessons from the Congo's Sicomines agreement

Landry¹

2018

Resources Policy

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Effects of Magnetic and Electric Field Uniformity on Coded Aperture Imaging Quality in a Cycloidal Mass Analyzer

Landry

Kim

Amsden

et al. 2017

J. Am. Soc. Mass Spectrom.

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Cycloidal mass analyzers are unique sector mass analyzers as they exhibit perfect double focusing, making them ideal for incorporating spatial aperture coding, which can increase the throughput of a mass analyzer without affecting the resolving power. However, the focusing properties of the cycloidal mass analyzer depend on the uniformity of the electric and magnetic fields. In this paper, finite element simulation and charged particle tracing were used to investigate the effect of field uniformity on imaging performance of a cycloidal mass analyzer. For the magnetic field, we evaluate a new permanent magnet geometry by comparing it to a traditional geometry. Results indicate that creating an aperture image in a cycloidal mass spectrometer with the same FWHM as the slit requires less than 1% variation in magnetic field strength along the ion trajectories. The new magnet design, called the opposed dipole magnet, has less than 1% field variation over an area approximately 62 × 65 mm; nearly twice the area available in a traditional design of similar size and weight. This allows ion imaging across larger detector arrays without loss of resolving power. In addition, we compare the aperture imaging quality of a traditionally used cycloidal mass spectrometer electric design with a new optimized design with improved field uniformity. Graphical abstract ᅟ.

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Capturing the rains: Comparing Chinese and World Bank hydropower projects in Cameroon and pathways for South-South and North South technology transfer

Chen¹,

Landry²

2018

Energy Policy

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Can Chinese investment lead to knowledge and technology transfers? The case of Madagascar

Landry

Chen

2021

Journal of Chinese Economic and Business Studies

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Under a money tree? Comparing the determinants of Western and Chinese development finance flows to Africa

Landry

2021

Oxford Development Studies

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Recent advances in reaction bonded silicon carbide optics and optical systems

Robichaud¹,

Schwartz²,

Landry³

et al. 2005

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Making It Rain? Comparing the Determinants of Chinese and Western FDI Flows to Africa

Landry

2021

Global Policy

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This paper tests whether Chinese FDI disproportionately flows to poorly governed African countries, compared to those of the West. It also explores whether UN voting alignment between home and host countries, development loans from the former to the latter, and host countries’ market size, natural resource wealth, and per capita income impact Chinese and Western FDI flows differently. It finds that governance quality among African countries plays a positive role in predicting their FDI inflows – from both Western countries and China. The only governance indicator that has a significantly lower impact on Chinese FDI than that of the West is corruption controls, and only when South Africa is excluded from the models. Even then, however, the relationship between corruption controls and Chinese FDI flows is positive in absolute terms. Beyond governance, this paper finds that UN voting alignment and development loans have a significantly larger impact on Chinese FDI than that of the West and that the opposite is true with regard to market size and per capita income.

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David Landry

Proof of Concept Coded Aperture Miniature Mass Spectrometer Using a Cycloidal Sector Mass Analyzer, a Carbon Nanotube (CNT) Field Emission Electron Ionization Source, and an Array Detector

The risks and rewards of resource-for-infrastructure deals: Lessons from the Congo's Sicomines agreement

Effects of Magnetic and Electric Field Uniformity on Coded Aperture Imaging Quality in a Cycloidal Mass Analyzer

Capturing the rains: Comparing Chinese and World Bank hydropower projects in Cameroon and pathways for South-South and North South technology transfer

Can Chinese investment lead to knowledge and technology transfers? The case of Madagascar

Under a money tree? Comparing the determinants of Western and Chinese development finance flows to Africa

Recent advances in reaction bonded silicon carbide optics and optical systems

Making It Rain? Comparing the Determinants of Chinese and Western FDI Flows to Africa

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